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甲基苯丙胺诱导的神经毒性和小胶质细胞激活并非由趋化因子受体信号传导介导。

Methamphetamine-induced neurotoxicity and microglial activation are not mediated by fractalkine receptor signaling.

作者信息

Thomas David M, Francescutti-Verbeem Dina M, Kuhn Donald M

机构信息

Department of Pharmaceutical Sciences, Eugene Applebaum College of Pharmacy and Health Sciences, Wayne State University, Detroit, Michigan, USA.

出版信息

J Neurochem. 2008 Jul;106(2):696-705. doi: 10.1111/j.1471-4159.2008.05421.x. Epub 2008 Apr 12.

Abstract

Methamphetamine (METH) damages dopamine (DA) nerve endings by a process that has been linked to microglial activation but the signaling pathways that mediate this response have not yet been delineated. Cardona et al. [Nat. Neurosci. 9 (2006), 917] recently identified the microglial-specific fractalkine receptor (CX3CR1) as an important mediator of MPTP-induced neurodegeneration of DA neurons. Because the CNS damage caused by METH and MPTP is highly selective for the DA neuronal system in mouse models of neurotoxicity, we hypothesized that the CX3CR1 plays a role in METH-induced neurotoxicity and microglial activation. Mice in which the CX3CR1 gene has been deleted and replaced with a cDNA encoding enhanced green fluorescent protein (eGFP) were treated with METH and examined for striatal neurotoxicity. METH depleted DA, caused microglial activation, and increased body temperature in CX3CR1 knockout mice to the same extent and over the same time course seen in wild-type controls. The effects of METH in CX3CR1 knockout mice were not gender-dependent and did not extend beyond the striatum. Striatal microglia expressing eGFP constitutively show morphological changes after METH that are characteristic of activation. This response was restricted to the striatum and contrasted sharply with unresponsive eGFP-microglia in surrounding brain areas that are not damaged by METH. We conclude from these studies that CX3CR1 signaling does not modulate METH neurotoxicity or microglial activation. Furthermore, it appears that striatal-resident microglia respond to METH with an activation cascade and then return to a surveying state without undergoing apoptosis or migration.

摘要

甲基苯丙胺(METH)通过一种与小胶质细胞激活相关的过程损害多巴胺(DA)神经末梢,但介导这种反应的信号通路尚未明确。Cardona等人[《自然神经科学》9(2006年),917]最近确定小胶质细胞特异性趋化因子受体(CX3CR1)是MPTP诱导的DA神经元神经变性的重要介质。由于在神经毒性小鼠模型中,METH和MPTP引起的中枢神经系统损伤对DA神经元系统具有高度选择性,我们推测CX3CR1在METH诱导的神经毒性和小胶质细胞激活中起作用。用CX3CR1基因已被删除并替换为编码增强型绿色荧光蛋白(eGFP)的cDNA的小鼠进行METH处理,并检查纹状体神经毒性。METH使CX3CR1基因敲除小鼠的DA减少、引起小胶质细胞激活并使体温升高,其程度和时间进程与野生型对照相同。METH对CX3CR1基因敲除小鼠的影响不依赖性别,且不超出纹状体范围。组成性表达eGFP的纹状体小胶质细胞在METH处理后显示出激活特征性的形态变化。这种反应仅限于纹状体,与未受METH损伤的周围脑区中无反应的eGFP小胶质细胞形成鲜明对比。我们从这些研究中得出结论,CX3CR1信号传导不调节METH神经毒性或小胶质细胞激活。此外,似乎纹状体内驻留的小胶质细胞通过激活级联反应对METH作出反应,然后恢复到监测状态,而不发生凋亡或迁移。

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